KR101576487B1 - Membrane filtering system with high efficiency using pressure flotation and its processing method - Google Patents

Abstract

The present invention relates to a high-efficiency membrane filtration water purification system using a pressurized air floating method and a water purification method thereof, and more particularly, to a membrane filtration water purification system for filtering and filtering a foreign substance contained in raw water, In addition, the foreign matter contained in the backwash water discharged after the membrane filtration is also reprocessed by the pressurized air floating method, so that the foreign matter in the filtration water purification system The present invention relates to a high efficiency membrane filtration water purification system using a pressurized air floating method which can be operated much more simply and economically than a conventional water purification system of the same class as well as improvement of the treatment efficiency.
That is, the present invention provides a method for producing a coagulant; A float separating unit for flocculating foreign matter contained in the raw water and separating the float by air; A membrane filtration unit for microfiltration by pressurizing raw water separated from the flocs by a pressurizing pump; A drainage unit for discharging the treated water that has passed through the membrane filtration unit to the outside; A circulation unit for introducing the backwash water discharged separately from the membrane filtration unit into the mixing unit; And a high-efficiency membrane filtration purification system using the pressurized air floating method.

Description

TECHNICAL FIELD [0001] The present invention relates to a high-efficiency membrane filtration water purification system using a pressurized air flotation method,

The present invention relates to a high-efficiency membrane filtration water purification system using a pressurized air floating method and a water purification method thereof, and more particularly, to a membrane filtration water purification system for filtering and filtering a foreign substance contained in raw water, In addition, the foreign matter contained in the backwash water discharged after the membrane filtration is also reprocessed by the pressurized air floating method, so that the foreign matter in the filtration water purification system The present invention relates to a high efficiency membrane filtration water purification system using a pressurized air floating method which can be operated much more simply and economically than a conventional water purification system of the same class as well as improvement of the treatment efficiency.

In general, raw water contains algae, various microorganisms, and foreign substances. Therefore, in order to use the raw water as a water, purification treatment is required. There are various methods of treating the raw water.

Among the various methods of treating the raw water as described above, there is used a membrane filtration purification method in which a membrane is subjected to a purification treatment by using a membrane. Briefly, the membrane filtration purification method includes a membrane In paper form, it has innumerable pores.

Here, the particles larger than the pores do not permeate the membrane, but the small particles permeate the membrane. This is referred to as 'sieving', and the separation is performed according to the size of the foreign substance based on the sieving function of the membrane.

In the field of water treatment of tap water, the membrane filtration water purification method as described above is used to remove suspended substances, colloids, bacteria, fungi, and the like contained in raw water, and the separation target is a region having a particle size of 0.01 to 10 μm .

More specifically, the conventional water purification system using the membrane filtration water purification method is composed of a coagulant injection process, an aggregation process, a membrane filtration process, and a process water discharge process as basic processes.

Such a conventional membrane filtration water purification system has a disadvantage in that pores of the membrane are often clogged because they are directly attached to various foreign substances contained in the raw water through the membrane filtration process, and they are vulnerable to algae, particularly floating algae, The processing speed is not stable and irregular.

As a result, the above problems are more frequent nowadays due to the overproduction of tidal currents due to recent climate change, and in a severe case, stable supply of water may be difficult.

In addition, after the membrane filtration process, the backwash discharge water is separately discharged in addition to the treated water. The backwash discharge water is water containing various foreign substances caught in the membrane filtration process, and the backwash discharge water also needs a separate treatment process.

In addition, in the membrane filtration purification method for separating and removing foreign substances by simple membrane filtration as described above, powdered activated carbon is added to remove the taste and smell of raw water, and the remaining portion of the powdered activated carbon is included in the backwash discharge water and discharged .

Since the backwashing effluent discharged after the membrane filtration process contains various foreign substances including the powdery activated carbon residue, it is preferable to treat the backwash effluent once more and discharge it. In connection with the backwash effluent treatment process, The process comprises a backwash discharge resin to receive backwash water, a concentration process to concentrate the backwash water, and a desolvation process to discharge moisture from the sludge after the concentration process.

That is, since the conventional membrane filtration water purification system as described above requires complicated processes including backwash discharge resin, concentration process, and discharge process only to treat backwash discharge water discharged after the membrane filtration process, Is low.

Korean Patent Laid-Open No. 2009-93781 'Fusion type water treatment device using immersion type membrane and dissolved air floating method' (disclosed on September 2, 2009)

The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a membrane filtration water purification system and a method of treating the same by filtration of foreign substances contained in raw water, In addition, since various kinds of foreign matters such as backwashing effluent discharged after the membrane filtration are also reprocessed by the pressurized air floating method, the water treatment efficiency is remarkably improved as compared with the conventional membrane filtration water purification system, It is an object of the present invention to provide a high-efficiency membrane filtration water purification system using a pressurized air floating method and a water purification method thereof which can operate much simpler and more economically than a water purification system.

Hereinafter, a configuration of the present invention capable of achieving the above object will be described.

The high efficiency membrane filtration water purifying system using the pressurized air floating method according to the present invention is characterized in that powder activated carbon (PAC) for removing taste and odor contained in raw water and flocculant for coarsening foreign particles are injected A mixing unit 10 for mixing the powdered activated carbon (PAC) and raw water into which the coagulant is injected; A flotation separation section (20) for flocculating the foreign substances contained in the raw water to form flocs, and then separating the flocs by air; A membrane filtration unit 30 for precisely filtering the raw water separated from the flocs by a pressurizing pump 31; A drainage unit 40 for draining the treated water that has passed through the membrane filtration unit 30 to the outside; A circulation unit 50 for introducing backwash water discharged separately from the membrane filtration unit 30 into the mixing unit 10; A storage tank 51 for temporarily storing backwash discharge water provided at one side of the circulation unit 50; And a dewatering unit (60) for removing the moisture of the flocs separated from the flotation separation unit (20).

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In addition, the method for treating high-efficiency membrane filtration water using the pressurized air floating method according to the present invention is characterized in that powder activated carbon (PAC) for removing taste and odor contained in raw water and flocculant for coarsening particles of foreign matter A mixing step (S-1) of mixing the powdered activated carbon (PAC) and the raw water injected with the coagulant into the mixing unit 10 after the simultaneous injection; After the mixing step (S-1), raw water mixed with the powdery activated carbon and the flocculant is transferred to the floating separator 20 to form flocs through agitation, micro-air is injected to float the flocs to the water surface, A floating separation step (S-2) for separating and removing the flocs; After the float separation step (S-2), the float-separated raw water is transferred to the membrane filtration unit 30 by the pressurizing pump 31 to be filtered, and the filtered treated water is discharged through the drainage unit 40 (S-3); After the filtration and discharge step (S-3), the backwash water discharged separately from the membrane filtration unit 30 flows into the mixing unit 10 through the circulation unit 50, Drain water circulation step (S-4); And a dehydrating step (S-5) for removing moisture of the flocs separated from the flotation separation part (20).

The present invention having the above-described configuration can be expected to have the following technical and economic effects.

First, the present invention relates to a system and a water treatment method for filtering raw water by filtration of raw water and pretreatment for removing impurities using a pressurized air floating method prior to purification treatment of the raw water by membrane filtration, By separating and removing these large foreign substances in advance, there is a technical effect that the water treatment can be stably performed as compared with the conventional membrane filtration water purification system.

In addition, even if pesticidal algae, which degrade membrane filtration efficiency, are excessively proliferated, they are preliminarily separated and removed by pretreatment using a pressurized air flotation method, .

In the present invention, the backwash water discharged after the membrane filtration of the raw water has been processed through a complicated process. However, in the present invention, the backwash water is introduced into the blend part to cause air flotation and floc collection together with the raw water, And the dehydration process is performed through the dehydration section associated with the flotation separation section, there is a technical effect that the backflushed effluent can be effectively treated even in a much simpler process than the conventional process.

In addition, when the admixture of the backwashed effluent water is introduced, the powdered activated carbon residue contained in the backwashed effluent water is also allowed to flow together, thereby contributing to the elimination of the taste, odor, etc. of the raw water. As shown in FIG.

In addition, compared with the conventional complicated backwash water treatment process, the effective treatment can be performed even with a simple configuration using the pressurized floating air process, thereby providing an economical effect that the installation and treatment costs can be greatly reduced as compared with the conventional membrane filtration water purification system .

1 shows a conventional membrane filtration purification system
2 is a schematic diagram of a membrane filtration purification system according to the present invention
FIG. 3 is a schematic diagram of an apparatus for testing membrane filtration efficiency versus cost according to the prior art and the present invention
Fig. 4 is a graph showing the results of experiments
5 is a flowchart of the water treatment process according to the present invention
Fig. 6 is a graph showing an experimental result of powder activated carbon treatment for backwashed effluent water using a pressurized air floating method

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a conventional membrane filtration purification system, and FIG. 2 is a membrane filtration purification system according to the present invention.

As shown in FIG. 2, the pre-treatment of the membrane filtration unit 30 includes the steps of the admixture 10 and the floatation separation unit 20, and the membrane filtration unit 30 A process of discharging treated water to the outside through a drainage unit 40 and a process of flowing the backwash drainage water separately discharged from the membrane filtration unit 30 to the admixture unit 10 through the circulation unit 50 .

The water purification system according to the present invention comprises a mixing unit 10 for injecting coagulant into raw water; A float separation unit (20) for flocculating foreign matter contained in the raw water and separating the float by air; A membrane filtration section (30) for microfiltration by pressurizing raw water separated from the flocs by a pressurizing pump (31); A drainage unit 40 for draining the treated water that has passed through the membrane filtration unit 30 to the outside; A circulation unit 50 for introducing backwash water discharged separately from the membrane filtration unit 30 into the mixing unit 10; .

Here, the mixing unit 10 injects and mixes a coagulant into the raw water, and the coagulant is combined with particles of various foreign substances contained in the raw water to form a flock.

At this time, it is preferable that the powdered activated carbon (PAC) can be introduced before the coagulant is injected, and the powdered activated carbon (PAC) has an excellent effect for removing organic substances, trace pollutants, .

It is also possible to use the above powdered activated carbon (PAC) simultaneously with the coagulant injection. By using such powder activated carbon and coagulant, it is possible to rapidly and effectively coagulate the foreign substances contained in the raw water, The substance can also effectively aggregate and be removed.

By using the powder activated carbon (PAC) and the flocculant in the pretreatment process of the membrane filtration unit 30 as described above, the pretreatment of the raw water can be performed more quickly and effectively.

The raw water to be mixed with the coagulant in the mixing unit 10 into which the coagulant is injected is separated from the raw water through the float separating unit 20. The configuration of the float separating unit 20 will be briefly described The float separator 20 is formed of a water tank having a predetermined shape and has a flocculation portion 21, an air floating portion 22 and a flocculation portion 23 And each of them is partitioned, and the upper portions thereof are opened to each other so that the raw water is processed in order.

That is, the floating separation unit 20 includes a flocculation unit 21 formed by flocculating the foreign substances contained in the raw water, an air floating unit 22 floating the flocculant formed at the flocculation unit 21 to the water surface, ; A flock collecting part (23) for separating and collecting the floated flocks; .

The raw water injected with the coagulant into the mixing unit 10 is flocculated by the floatation separator 20 and the flocculated flocculates float to the water surface through the air float, It is separately collected and separated from the raw water.

In this case, the flocculant 21 is flocculated by the flocculant, and the flocculant 21 includes an agitator 21a for agitating the raw water mixed with the flocculant at a constant rate .

As described above, the agglomerating unit 20 including the agitator 21a makes the impingement of the raw water particles containing the foreign substance more uniform, so that the foreign substances contained in the raw water can effectively be agglomerated.

The air floatation portion 22 includes an injection nozzle 22a for spraying compressed air. The air floatation portion 22 includes a plurality of nozzles 22a, Lt; / RTI >

Accordingly, the injection nozzle 22a is located at the lower portion of the air floating portion 22 so that the minute air bubbles are injected upward, so that the infinite minute air bubbles are raised while pushing the flock to the water surface, .

The flock floating on the water surface by the air floating portion 22 moves to the flock collecting portion 23 and is separated. The flock collecting portion 23 is installed on the upper side of the water surface, A skimmer 23a for picking up the flocs, and a storage tank 23b for storing the flocs taken up by the skimmer 23a.

Here, since the configuration of the floc collector 23 including the skimmer 23a is well known, a detailed description thereof will be omitted.

By separating the flocs from the raw water through the floc collecting unit 23 having the above-described configuration, the water quality of the raw water is further improved, and the raw water in which the flocs are separated and removed as described above is moved to the membrane filtration unit 30 Stable filtration is performed.

The flotation part 20 including the flocculation part 21, the air floating part 22 and the flock collecting part 23 is formed in connection with the dehydrating part 60 as described above, It is preferable that dehydration treatment of the flocs separated through the dehydration process is performed.

Then, as described above, raw water separated from the flocs through the flotation separation unit 20 passes through the membrane filtration unit 30, and membrane stains are reduced, and more stable foreign substances are removed. And is discharged to the outside through the drainage section (40).

The membrane filtration unit 30 filters fine foreign substances contained in raw water by using a membrane. As described above, the membrane filtration purification method does not allow the particles larger than the pores to pass through the membrane, Is a method of separating into the size of a foreign object based on the function of "squeezing" which is said to be transmitted.

In the membrane filtration unit 30 to which the principle of the present invention is applied, a plurality of membranes are connected in series, so that the raw water passes through a plurality of membranes and is purified more finely.

In order to allow the raw water to effectively pass through the membrane filtration unit 30 composed of a plurality of membranes as described above, a certain degree of pressurization is required and the pressurization is preferably performed through a pressurizing pump (not shown) It is preferable that the pressurizing pump is installed on the front side of the membrane filtration unit 30 so as to apply pressure to the raw water and apply pressure in the direction of the membrane filtration unit 30. [

In addition, the pressurizing pump may provide a power source for smoothly performing the flow of the purified water of the raw water according to the present invention.

As described above, the treated water in which minute foreign substances are separated and removed through the membrane filtration unit 30 is discharged through the drainage unit 40, is sterilized, and is used as drinking water and water for various purposes.

Meanwhile, the backwash drainage water is discharged to the other side of the membrane filtration unit 30 along with the treated water discharged through the drainage unit 40. The backwash drainage water drains various fine foreign substances, It contains sewage.

It is preferable that the backwash water discharged as described above should not be discharged as it is, and it is preferable to discharge the foreign substances after separating and removing the foreign substances contained therein. In the present invention, in the treatment of the backwashed effluent water, Thereby allowing the backwash discharge water to be processed.

That is, the backwash discharge water discharged to the other side of the membrane filtration unit 30 is introduced into the admixture 10 through the circulation unit 50, and the backwash discharge water is mixed with the raw water in the admixture 10 So that they are processed together by the floating separation unit 20.

The circulation part 50 is a pipe having a certain cross section and has one end connected to the membrane filtering part 30 and the other end connected to the mixing part 10, A storage tank 51 in which backwash discharge water discharged from the membrane filtration unit 30 is temporarily stored is formed at one side of the membrane filtration unit 30.

If the backwash water discharged from the membrane filtration unit 30 through the circulation unit 50 having the above structure is moved to the mixing unit 10 and treated together with the raw water, compared with the conventional complicated backwash water treatment process It is possible to easily remove various foreign substances contained in the backwash discharge water even with a much simpler construction.

In addition, the residual powdered activated carbon (PAC) contained in the backwashing water and flowing into the admixture 10 can be recycled to remove the taste and odor during the flocculation process of the raw water, It is possible to form a water of even better quality.

In addition, as described above, the flocs which are caught while passing through the flotation separation unit 20 together with the raw water are dehydrated through the dehydration unit 60 associated with the flotation separation unit 20, It is possible to efficiently and easily perform the processing.

Of course, it is a matter of course that the above-described structures are connected to the water pipe 70 so that the raw water introduced from the outside is processed while being passed through the respective structures one after another.

Hereinafter, a method for processing a purified water based on the above system will be described.

The method for treating water according to the present invention comprises a mixing step (S-1) of mixing raw water with an aggregating agent and mixing the raw water in the mixing part (10); After the mixing step (S-1), raw water mixed with the flocculant is transferred to the flotation separation unit 20 to form flocs through agitation, and micro-air is injected to float the flocs to the water surface, (S-2); After the float separation step (S-2), the float-separated raw water is transferred to the membrane filtration unit 30 by the pressurizing pump 31 to be filtered, and the filtered treated water is discharged through the drainage unit 40 (S-3); After the filtration and discharge step (S-3), the backwash water discharged separately from the membrane filtration unit 30 flows into the mixing unit 10 through the circulation unit 50, Drain water circulation step (S-4); .

The water treatment method according to the present invention is based on the water purification system described above. The water purification method also includes the mixing unit 10, the floating separation unit 20, the membrane filtration unit 30, The drainage unit 40, and the circulation unit 50, and a detailed description of the water purification method will be given with reference to the concrete description of the water purification system described above.

In addition, it is preferable that before the mixing step (S-1), powdered activated carbon (PAC) is added to the raw water so that the raw water is purified more efficiently.

Hereinafter, the membrane filtration water purification system according to the present invention having the above-described structure and the conventional membrane filtration water purification system have been compared with each other in water treatment efficiency. As shown in FIG. 3, And a device comprising a conventional membrane filtration purification system.

The same amount of raw water was introduced into the experimental apparatus having the same construction as shown in FIG. 3 to measure the degree of the water treatment. The results shown in FIG. 4 were obtained, ).

As shown in FIG. 4, the membrane filtration water purification system according to the related art has a membrane filtration flow rate and TMP that are not stable from the admixture 10 to the membrane filtration section 30, It can be seen that the membrane filtration flow rate and the TMP are stably maintained in the configuration according to the system from the mixing section 10 to the membrane filtration section 30.

Therefore, even if various predictable variables such as the rapid growth of pseudo-algae are generated, the membrane filtration water purification system and the water purification method of the present invention using the pressurized air floating method do not change the water treatment speed, It becomes possible.

FIG. 6 is a graph showing an experiment in which the powdery activated carbon residue contained in the backwaters discharge water is treated by using a pressurized air flotation method. The black microparticles and the lumps thereof are powder activated carbon, ), The air jetting section (22), and the flock collecting section (23).

As can be seen from FIG. 6, it can be seen that the powdered activated carbon aggregated with the foreign matter is formed into a lump and floated to the water surface, and thus the foreign matter, the powdered activated carbon and the raw water are distinctly processed, It can be confirmed that the powdery activated carbon residue contained in the backwashing effluent can be effectively separated and removed through the flotation separation unit 20.

As described above, according to the present invention, the raw water containing the foreign substance is purified through the membrane filtration unit 30, and the raw water is pretreated with the pressurized air floating method before the membrane filtration So that the filtration of the membrane filtration unit 30 is significantly reduced, so that the water treatment can be performed quickly and quickly. In addition, the backwash water generated after membrane filtration of the raw water is also treated through the pressurized air floating method Thus, efficient backwash discharge water treatment can be performed even with a simple construction.

Therefore, the overall water treatment efficiency of the membrane filtration water purification system and the water purification method according to the present invention is further improved as compared with the conventional water purification system.

The present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the scope of the present invention.

10: Admixture 20: Float separator
21: Agglomerated part 21a: Agitator
22: air floating portion 22a: injection nozzle
23: flock collecting unit 23a: skimmer
23b: Storage tank 30: Membrane filtration part
31: pressurizing pump 40: drainage part
50: circulation part 51: storage tank
60: Dewatering unit 70: Water pipe
S-1: Mixing step
S-2: Float separation step
S-3: Filtration and Discharge Phase
S-4: Stage of backwaters discharge

Claims (6)

(PAC) for removing the taste and odor contained in the raw water and a coagulant for coarsening the particles of the foreign material are injected in order or simultaneously, and then the raw water injected with the powder activated carbon (PAC) and the coagulant is stirred An admixture 10; A flotation separation section (20) for flocculating the foreign substances contained in the raw water to form flocs, and then separating the flocs by air; A membrane filtration unit 30 for precisely filtering the raw water separated from the flocs by a pressurizing pump 31; A drainage unit 40 for draining the treated water that has passed through the membrane filtration unit 30 to the outside; A circulation unit 50 for introducing backwash water discharged separately from the membrane filtration unit 30 into the mixing unit 10; A storage tank 51 for temporarily storing backwash discharge water provided at one side of the circulation unit 50; And a dewatering unit (60) for removing moisture of the flocs separated from the flotation separation unit (20).
delete delete delete delete (PAC) for removing the taste and odor contained in the raw water and a coagulant for coarsening the particles of the foreign substance are injected in order or simultaneously, and then the raw water injected with the powder activated carbon (PAC) (S-1) which is miscible in step (10); After the mixing step (S-1), raw water mixed with the powdery activated carbon and the flocculant is transferred to the floating separator 20 to form flocs through agitation, micro-air is injected to float the flocs to the water surface, A floating separation step (S-2) for separating and removing the flocs; After the float separation step (S-2), the float-separated raw water is transferred to the membrane filtration unit 30 by the pressurizing pump 31 to be filtered, and the filtered treated water is discharged through the drainage unit 40 (S-3); After the filtration and discharge step (S-3), the backwash water discharged separately from the membrane filtration unit 30 flows into the mixing unit 10 through the circulation unit 50, Drain water circulation step (S-4); And a dewatering step (S-5) for removing moisture of the flocs separated from the flotation separation part (20).

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